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helliphelping communities protect themselves from polluting energy
and waste technologies
Victory City State Waste to be burned Local groupNov-14 Frederick Maryland Trash Tires Sewage Sludge No Incinerator Alliance Waste Not CarrollOct-14 Bloomington-Normal Illinois Trash Tires Donrsquot Waste Bloomington-Normal
Sept-14 Allentown Pennsylvania Trash Sewage Sludge Allentown Residents for Clean AirAug-14 Stafford County Virginia Trash Tires Stop the Stafford IncineratorApr-14 Jasper Indiana Miscanthus grass Healthy Dubois CountyApr-14 Port Townsend Washington Wood Port Townsend AirwatchersMar-14 North Las Vegas Nevada Constructiondemolition waste amp tires Citizens of North Las Vegas UnitedMar-14 Bristol Pennsylvania Hazardous Waste Ban the Burn in BristolFeb-14 North Springfield Vermont Wood Wood Waste North Springfield Action GroupFeb-14 Minneapolis Minnesota Trash (expansion blocked) Minneapolis Neighbors for Clean AirJan-14 White Deer Pennsylvania Tires Tire Burner Team Organizations United for the Environment Shale JusticeJul-13 Transylvania County North Carolina Trash Wood Waste People for Clean Mountains
Jun-13 Klamath Falls Oregon Wood Wood Waste Save Our Rural OregonApr-13 Greenfield Massachusetts Wood Wood Waste Concerned Citizens of Franklin CountyJan-13 Peters Township Pennsylvania Crematorium Peters Township residentsJul-12 St Lucie Florida Trash Floridians Against Incinerators in Disguise
Apr-12 Biscoe North Carolina Poultry Waste Blue Ridge Environmental Defense LeagueFeb-12 Montgomery County North Carolina Poultry Waste Blue Ridge Environmental Defense LeagueJan-12 Pichidegua Chile Poultry Waste Comite en defensa del medio ambiente de PichideguaNov-11 Port St Joe Florida Wood Wood Waste Gulf Citizens for Renewable EnergyNov-11 Vancouver Washington Wood Wood Waste Clark County Clean AirOct-11 Milltown Indiana Wood Wood Waste Concerned Citizens of Crawford CountyJun-11 Hamilton County Florida Wood Wood Waste Floridians Against Incinerators in DisguiseJun-11 Valdosta Georgia Sewage Sludge Wood Waste Valdosta-Lowndes NAACP Wiregrass Activists for a Clean Environment
May-11 Springfield Massachusetts Construction demolition wood waste Stop Toxic Incineration in SpringfieldMay-11 Mecklenburg County North Carolina Trash Central Piedmont Sierra Club SustainCharlotteMay-11 Attleboro Massachusetts Railroad Ties Utility Poles amp Plastics Attleboro Residents with Important Safety ConcernsApr-11 Pownal Vermont Wood Wood Waste Bennington-Berkshire Citizens CoalitionMar-11 Shelton Washington Wood Wood Waste Concerned Citizens of Mason CountyMar-11 DeKalb County Georgia Wood Wood Waste Lithonia residents Unhappy Taxpayer Voter AssociationFeb-11 Somerset Massachusetts Coal Wood Waste Toxics Action Center Somerset residentsDec-10 Olympia Washington Wood Wood Waste Olympia Rising Tide No Biomass BurnDec-10 Salem Missouri Wood Wood Waste Concerned Citizens of PerryvilleDec-10 Elbert County Georgia Trash Wood Waste Citizens for Public AwarenessNov-10 Shadyside Ohio Coal-to-Biomass Conversion Buckeye Forest CouncilNov-10 Clackamas County Oregon Wood Wood Waste Redland Community Action GroupAug-10 Hart County Georgia Poultry Waste Stop Fibrowatt in Northeast GeorgiaAug-10 Sampson County North Carolina Poultry Waste Sampson Citizens for a Safe Environment NAACPJul-10 Scottsburg Indiana Wood Wood Waste Concerned Citizens of Scott County
Jun-10 Traverse City Michigan Wood Wood Waste (5 proposals defeated) Michigan Citizens for Energy the Economy and EnvironmentMay-10 Erie Pennsylvania Tires Keep Eries Environment ProtectedApr-10 Port St Joe Florida Wood Wood Waste Floridians Against Incinerators in DisguiseApr-10 Elkin North Carolina Poultry Waste Citizens Alliance for a Clean Healthy EconomyMar-10 Gretna Florida Wood Wood Waste Concerned Citizens of Gadsden CountyFeb-10 Page County Virginia Poultry Waste Page County Citizens
Energy Justice NetworkVictories Against Biomass amp Waste Incinerators (2010 - 2014)
Grassroots Work Wins(Most Proposed Energy and Waste Facilities Defeated)
Source ldquoThe Power of Grassroots Resistance to Dirty Energyrdquo wwwenergyjusticenetfilesgrassrootsresistancepdf
Trash Incineration
wwwEnergyJusticenetincineration
wwwEnergyJusticenetmap
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Victory City State Waste to be burned Local groupNov-14 Frederick Maryland Trash Tires Sewage Sludge No Incinerator Alliance Waste Not CarrollOct-14 Bloomington-Normal Illinois Trash Tires Donrsquot Waste Bloomington-Normal
Sept-14 Allentown Pennsylvania Trash Sewage Sludge Allentown Residents for Clean AirAug-14 Stafford County Virginia Trash Tires Stop the Stafford IncineratorApr-14 Jasper Indiana Miscanthus grass Healthy Dubois CountyApr-14 Port Townsend Washington Wood Port Townsend AirwatchersMar-14 North Las Vegas Nevada Constructiondemolition waste amp tires Citizens of North Las Vegas UnitedMar-14 Bristol Pennsylvania Hazardous Waste Ban the Burn in BristolFeb-14 North Springfield Vermont Wood Wood Waste North Springfield Action GroupFeb-14 Minneapolis Minnesota Trash (expansion blocked) Minneapolis Neighbors for Clean AirJan-14 White Deer Pennsylvania Tires Tire Burner Team Organizations United for the Environment Shale JusticeJul-13 Transylvania County North Carolina Trash Wood Waste People for Clean Mountains
Jun-13 Klamath Falls Oregon Wood Wood Waste Save Our Rural OregonApr-13 Greenfield Massachusetts Wood Wood Waste Concerned Citizens of Franklin CountyJan-13 Peters Township Pennsylvania Crematorium Peters Township residentsJul-12 St Lucie Florida Trash Floridians Against Incinerators in Disguise
Apr-12 Biscoe North Carolina Poultry Waste Blue Ridge Environmental Defense LeagueFeb-12 Montgomery County North Carolina Poultry Waste Blue Ridge Environmental Defense LeagueJan-12 Pichidegua Chile Poultry Waste Comite en defensa del medio ambiente de PichideguaNov-11 Port St Joe Florida Wood Wood Waste Gulf Citizens for Renewable EnergyNov-11 Vancouver Washington Wood Wood Waste Clark County Clean AirOct-11 Milltown Indiana Wood Wood Waste Concerned Citizens of Crawford CountyJun-11 Hamilton County Florida Wood Wood Waste Floridians Against Incinerators in DisguiseJun-11 Valdosta Georgia Sewage Sludge Wood Waste Valdosta-Lowndes NAACP Wiregrass Activists for a Clean Environment
May-11 Springfield Massachusetts Construction demolition wood waste Stop Toxic Incineration in SpringfieldMay-11 Mecklenburg County North Carolina Trash Central Piedmont Sierra Club SustainCharlotteMay-11 Attleboro Massachusetts Railroad Ties Utility Poles amp Plastics Attleboro Residents with Important Safety ConcernsApr-11 Pownal Vermont Wood Wood Waste Bennington-Berkshire Citizens CoalitionMar-11 Shelton Washington Wood Wood Waste Concerned Citizens of Mason CountyMar-11 DeKalb County Georgia Wood Wood Waste Lithonia residents Unhappy Taxpayer Voter AssociationFeb-11 Somerset Massachusetts Coal Wood Waste Toxics Action Center Somerset residentsDec-10 Olympia Washington Wood Wood Waste Olympia Rising Tide No Biomass BurnDec-10 Salem Missouri Wood Wood Waste Concerned Citizens of PerryvilleDec-10 Elbert County Georgia Trash Wood Waste Citizens for Public AwarenessNov-10 Shadyside Ohio Coal-to-Biomass Conversion Buckeye Forest CouncilNov-10 Clackamas County Oregon Wood Wood Waste Redland Community Action GroupAug-10 Hart County Georgia Poultry Waste Stop Fibrowatt in Northeast GeorgiaAug-10 Sampson County North Carolina Poultry Waste Sampson Citizens for a Safe Environment NAACPJul-10 Scottsburg Indiana Wood Wood Waste Concerned Citizens of Scott County
Jun-10 Traverse City Michigan Wood Wood Waste (5 proposals defeated) Michigan Citizens for Energy the Economy and EnvironmentMay-10 Erie Pennsylvania Tires Keep Eries Environment ProtectedApr-10 Port St Joe Florida Wood Wood Waste Floridians Against Incinerators in DisguiseApr-10 Elkin North Carolina Poultry Waste Citizens Alliance for a Clean Healthy EconomyMar-10 Gretna Florida Wood Wood Waste Concerned Citizens of Gadsden CountyFeb-10 Page County Virginia Poultry Waste Page County Citizens
Energy Justice NetworkVictories Against Biomass amp Waste Incinerators (2010 - 2014)
Grassroots Work Wins(Most Proposed Energy and Waste Facilities Defeated)
Source ldquoThe Power of Grassroots Resistance to Dirty Energyrdquo wwwenergyjusticenetfilesgrassrootsresistancepdf
Trash Incineration
wwwEnergyJusticenetincineration
wwwEnergyJusticenetmap
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Grassroots Work Wins(Most Proposed Energy and Waste Facilities Defeated)
Source ldquoThe Power of Grassroots Resistance to Dirty Energyrdquo wwwenergyjusticenetfilesgrassrootsresistancepdf
Trash Incineration
wwwEnergyJusticenetincineration
wwwEnergyJusticenetmap
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Trash Incineration
wwwEnergyJusticenetincineration
wwwEnergyJusticenetmap
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
wwwEnergyJusticenetmap
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Number of Commercial Operating Trash Incinerators in the US
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Average life of the 14 trash incinerators closed since 2010 in the US 26 years
bull Average lifespan of the 30 trash incinerators that have closed since 2000 was just22 years
bull Few trash incinerators operate beyond a30-year life time
bull Only one made it past 40 without being completely rebuilt and is having serious problemsndash Rebuilding the Harrisburg PA incinerator
bankrupted the city
Incinerator Life Spans
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Covantarsquos newest incinerator was aging at the ripe age of 22 In Marylandhellip
In 2016-2017 the incinerator experienced more downtime than usual due to ldquomuch-needed plant maintenancerdquo The incineratorrsquos capacity and availability ldquois below industry standardrdquo and has resulted in ldquohigh waste inventoriesrdquo (larger piles of trash stored inside the plant)
ldquoThis reduced availability and capacity is a result of a lack of maintenance and repair on the boiler and air pollution control systemsrdquoSource Covanta amp Montgomery County Department of Environmental ProtectionSee pp 4 amp 49 in wwwmontgomerycountymdgovSWSResourcesFilesrrfRCA20Documentspdf
Incinerator Life Spans
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Waste-to-energy (WTE)bull Energy from Waste (EfW)bull Trash-to-steambull Conversion technologiesbull Energy Recoverybull Biomassbull Advanced Thermal Techbull Waste to Fuel (WTF)bull Pyrolysis Gasification Plasma Arcbull Policy buzzwords ldquointegratedrdquo or
ldquosustainable materials managementrdquo
Incinerators Names Used
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incinerators arehellip
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incinerators arehellip
Source Morris Jeffrey and Canzoneri Diana ldquoRecycling Versus Incineration An Energy Conservation Analysisrdquo Sound Resource Management Group (SRMG) Seattle Washington September 1992
wwwsciencedirectcomsciencearticlepii0304389495001166
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Worldrsquos largest waste corporation driving away from incineration
Jan 3 2014 ldquoBig Waste Hauler Rethinks Startupsrdquo[pulls out of gasification pyrolysis plasma and trash-to-ethanol investments selling off Agilyx Enerkem Fulcrum Genomatica amp InEnTec]
Jul 29 2014 ldquoWaste Management to Sell Wheelabrator for $194 Billionrdquo[pulls out of long-standing ownership of Wheelabrator the second-largest operator of conventional incinerators in US]
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
EPA ldquoNon-Hazardous Secondary Materialsrdquo ruleWaste is now ldquoFuelrdquo
[Refuse-derived fuel (RDF) or ldquoSpecFuelrdquo or ldquoProcessed Engineered Fuelrdquo]
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Emerging Threatsbull Refuse-derived fuel (RDF)
(fuel pellets to burn in coal plants cement kilns and other boilers)bull Processed Engineered Fuelbull SpecFuel
bull Waste to fuelsbull Trash to ethanol methanol jet fuel naphtha asphalthellip
bull Two-stage incineratorsbull Pyrolysisbull Gasificationbull Plasma Arc
bull Anaerobic digestionbull Digestated trash marketed as burnable fuel or as fertilizer
or soil amendment ok if just to pre-process before landfill
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
wwwenergyjusticenetcrayola
Stop GreenwashingHold Crayola Accountable
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Gasification plasma arc and pyrolysisbull Canrsquot run continuouslybull Canrsquot be run effectively at commercial scalebull Canrsquot process heterogenous feedstocks like trashbull Companies with no real history bamboozle local
officials into subsidizing projects that fail technically and financially
bull The companies usually lie about their emissions claiming zero emissions or ldquono smokestackrdquo
Experimental Types of Incinerators Donrsquot Work
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
40 CFR 6051abull Municipal waste combustor MWC or municipal waste combustor unit (1)
Means any setting or equipment that combusts solid liquid or gasified MSW including but not limited to field-erected incinerators (with or without heat recovery) modular incinerators (starved-air or excess-air) boilers (ie steam-generating units) furnaces (whether suspension-fired grate-fired mass-fired air curtain incinerators or fluidized bed-fired) and pyrolysiscombustion units
bull Pyrolysiscombustion unit means a unit that produces gases liquids or solids through the heating of MSW and the gases liquids or solids produced are combusted and emissions vented to the atmosphere
ldquoA municipal waste incinerator combusts solid waste and thus is functionally synonymous with municipal waste combustorrdquo (wwwepagovttnnsrgenrm_2html)
EPA says pyrolysisgasification = incineration
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Patent review companybull has been seeing pyrolysis projects for 14 yearsbull none of them are legitimatebull theyre just splitting combustion into two steps
making it more expensive less efficient and not any cleaner
bull sees a steady stream of guys in their 50s-70s who worked at corporations thought its a great idea and go out and promote it and get money by whatever means and get some patent coverage mainly to help get the money but none are legit
Pyrolysis is a failed technology
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Rubber Manufacturers Associationbull ldquoMajor tire companies like Goodyear and
Firestone once invested lsquoimmense resourcesrsquo in pyrolysis but could not find markets for the byproducts or even a way to integrate them into their own products And scores of start-ups have tried and failed to make money from tire pyrolysisrdquo
bull ldquoThe road is littered with the carnage of people who were trying to make this technology viablerdquo
Pyrolysis is a failed technology
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Not intended for continuous operationndash Runs batch processesndash Mainly used at demonstration scale
bull Can only operate on homogenous fuels
Environmental Protection Agencybull While technically feasible tire pyrolysis ndash a
process in which tires are subjected to heat in an oxygen-starved environment and converted to gas oil and carbon char ndash has been inhibited by the high capital investment required and steep operating costs
Pyrolysis is a failed technology
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Garbage-in Garbage-out
bull Nothing is 100
bull Small amounts matter especially if theyre a small of a BIG number
bull If incineration is the answer someone asked the wrong question
bull Makes the problem ldquoinvisiblerdquo rather than making it very visible so that unsustainably-produced products can be properly dealt with
Basic Lessons
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
ldquoWaste-to-energy is an additional capital cost That is not in dispute compared to a landfill compared to a landfill which is a less capital-intense structure ndash it is more expensive If you had a landfill next to a
waste-to-energy facility then almost in every case you would think the landfill is going to
be cheaperrdquo
Most Expensive Way to Manage Waste
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Most Expensive Way to Manage Waste
Source National Solid Waste Management Association 2005 Tip Fee Survey p4 wwwenvironmentalistseverydayorgdocsTipping-Fee-Bulletin-2005pdf
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Most Expensive Way to Make Energy
Source Updated Capital Cost Estimates for Utility Scale Electricity Generating Plants Energy Information Administration April 2013 p6 Table 1 Full report here wwweiagovforecastscapitalcostpdfupdated_capcostpdf
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incinerator Economicsbull Capital Intensive (Expensive)bull Requires long-term monopoly contracts Put-or-
Pay contracts including ldquoput or payrdquo clauses that punish local governments if they recycle compost
bull Competes with zero waste AND energy alternativesndash Competes with wind and solar in Renewable Portfolio
Standards
bull Economic incentives encourage burning more dangerous wastes (getting paid to take waste vs paying for fuels)
bull Canrsquot compete with cheap electricity Steam sales more lucrative
Currently trash incineration is only in direct competition with wind and solar in Marylandrsquos RPS law but this affects many other states and biomass incineration and landfill gas burning competes directly with wind and solar in most RPS laws
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Maryland ratepayer money to trash incinerators via Renewable Energy Credits
(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull OLD THOUGHT needs paper and plastics to burn effectively
bull NEW UNDERSTANDING competes more with composting
bull Must be fed enough wastebull ldquoPut or payrdquo waste contracts punish
zero waste efforts
Incineration Competeswith Recycling Composting
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incinerators Burn Moneybull Harrisburg PA incinerator was primarily responsible for
bankrupting Pennsylvaniarsquos capital citybull Claremont NH 20-year ldquoput-or-payrdquo contracts caused 29 towns
to file for bankruptcy in 1993 which the court denied requiring that taxes be raised to pay back the incinerator for waste the towns did not even produce
bull Hudson Falls NY and Lake County FL ndash deep incinerator debt due to long-term contracts favorable to the industry
bull Poughkeepsie NY ndash incinerator fails to bring in enough revenue from tipping fees and electric sales to operate without millions in annual subsidies from the county
bull Detroit MI ndash the nationrsquos largest incinerators by design capacity ndash has cost the ailing city $12 billion in debt payments over 20 years bringing the city close to bankruptcy on three occasions
bull All of New Jerseyrsquos five trash incinerators had to be bailed out by the state taxpayers with over $15 Billion because they could not attract enough waste to operate at capacity
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Worst Way to Create Jobs
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Toxic Air Emissions arehellipbull Dioxins furans (28 times)bull Mercury (6-14 times)bull Lead (6 times)bull Nitrogen Oxides (NOx) (32 times)bull Carbon Monoxide (CO) (19 times)bull Sulfur Dioxide (SO2) (70 worse)bull Carbon Dioxide (CO2) (25 times)
Incineration Worse than Coal
wwwenergyjusticenetincinerationworsethancoal
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
ldquoa waste-to-energy plant is designed to manage solid
waste the electricity output is a secondary functionrdquo
Incinerator Not a Power Plant
Ted Michaels President Energy Recovery Council March 18 2013 testimony before Washington DC City Council
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
Data is in pounds of CO2 per unit of energy produced
(lbsMWh)
Source US EPA Emissions amp
Generation Resource Integrated
Database (eGRID) v9 released
2242014(2010 data)
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Dioxins amp Furansbull Most toxic chemicals known to science
140000 times more toxic than mercurybull Cause infertility learning disabilities
endometriosis birth defects sexual reproductive disorders damage to the immune system cancer and more
bull 93 of dioxin exposure is from eating meat and dairy productsndash It takes 14 years for a human to
inhale as much dioxin as a grazing cow will ingest in one day
ndash Highest exposure is during infancywwwejnetorgdioxin
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Exposure to Dioxins
Source US Environmental Protection Agency ldquoEstimating Exposure to Dioxin-Like Compounds ndash Volume 1 Executive Summaryrdquo June 1994
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
How to make dioxinbull Dioxins are created by burning hydrocarbons with
chlorine in the presence of oxygenbull Dioxin emissions increase when
ndash More chlorine is in the fuelwaste streamndash Certain metal catalysts are present (Copper Iron Zinchellip)ndash The gases stay in a low temperature range
(200-450o C)ndash Much is formed on the ash as it coolsndash Carbon injection used to reduce dioxin
air emissions increases dioxins but transfers them to the ash
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell allbull Rigorous enforcement by the statebull Emissions limits = health amp safety
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
The Smokestack Storybull Continuous Emissions Monitors (CEMs) tell all
ndash CEMs only cover a few pollutants others tested annuallyndash Some companies rig stack tests and CEMs data
bull Rigorous enforcement by the statendash Not all violations result in finesndash Fines not enough to change behavior
bull Emissions limits = health amp safetyndash Not based on health amp safety at allndash Technology-based standardndash Concentration-based limits mean
larger facilities can polluter more
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
wwwejnetorgtoxicscems
Continuous Emissions Monitors
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Only generally used for 3 pollutants sulfur oxides (SOx) nitrogen oxides (NOx) and carbon monoxide (CO) plus opacity oxygen and temperature
bull Actual emissions of dioxins 30-50 times higherbull Technology now exists to continuously monitor
Ammonia (NH4)Carbon Dioxide (CO2)Hydrogen Sulfide (H2S)Acid Gases
Sulfuric Acid (H2SO4)Hydrofluoric Acid (HF)Hydrochloric Acid (HCl)
Products of Incomplete Combustion (PICs)Dioxins amp FuransPolycyclic Aromatic Hydrocarbons (PAHs)Volatile Organic Compounds (VOCs)
Particulate Matter (PM)
MetalsAntimony (Sb)Arsenic (As)Barium (Ba)Cadmium (Cd)Chromium (Cr)Lead (Pb)Manganese (Mn)Mercury (Hg)Silver (Ag)Nickel (Ni)Zinc (Zn)hellipand more
Continuous Emissions Monitors
wwwejnetorgtoxicscems
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Incinerators still require landfills for their toxic ashbull 30 tons of ash produced for every 100 tons burnedbull Ash leaches more readily can blow off of trucks
and off of landfills where itrsquos often used as cover
Incinerator Ash
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incinerator ash is toxic but the US EPA allows a special test that enables it to test as non-hazardous saving the industry a lot of money
Incinerator Ash = Hazardous Waste
Despite Canada relying on the same test Vancouverrsquos incinerator ash is leaching toxic cadmium at levels about twice the provincersquos acceptable limits Theyrsquove had to ship the hazardous ash to a hazardous waste landfill in Alberta
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
City of Chicago v Environmental Defense Fund 511 US 328 (1994)
May 2 1994 US Supreme Court rules that incinerator ash which tests hazardous for toxic heavy metals such as lead and cadmium must be disposed of in hazardous waste landfills rather than in municipal solid waste landfills
If incinerators were made to pay for the expense of disposing of their ash as hazardous waste theyd be out of business overnight
How Incinerator Ash Escapes being Hazardous Waste
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
1) Switching the test EPA allowed the industry to switch from the EP Tox test to the TCLP test
bull EP Tox Test used to find fly ash hazardous 94 percent of the time bottom ash 36 of the time and combined ash 40 of the time
bull Toxicity Characteristic Leaching Procedure (TCLP) test uses different pH requirements that allow the test to be conducted at a neutral pH where lead doesnt leach out saving the industry from a hazardous waste designation Lead and cadmium were the leading causes of ash failing the EP Tox test
bull Neither test looks at whatrsquos in the ash They look just at what leaches out under short-term pH-manipulated lab conditions
How Incinerator Ash Escapes being Hazardous Waste
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
2) Mixing of fly ash and bottom ash prior to testingbull Dilutes the toxicity of the fly ashbull Lime injection in scrubbers (air pollution controls) makes the
ash very basic (around pH 12) where lead will leach if tested with water but the TCLP test uses acid to lower the pH just enough so that lead wont leach ndash but not to the fixed pH of 5 that the EP Tox test required where lead leaches again
bull Mixing of the ash prior to testing enables the lime in the fly ash to also protect the bottom ash from failing the test
bull Most of the metals have a U-shaped solubility curve (so it leaches at high and low pH but not so much in the middle at a neutral pH) The test can make it look like certain metals wont leach out though in real-life disposal conditions over time the shifting pH will cause it to leach
How Incinerator Ash Escapes being Hazardous Waste
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
3) Allowing incinerators to store ash on-site for months so they can keep treating or diluting it until it passes the test Some incinerators have been known to send many ash samples to a lab until one passes then they use the good results to report to the state
bull One trick used by incinerator operators to pass the TCLP test is to treat the fly ash with phosphoric acid prior to testing Phosphoric acid converts the soluble lead into the highly insoluble substance lead phosphate fixing the lead in the ash long enough to pass the test However lead phosphate may not tie up lead indefinitely in the landfill since phosphate is a nutrient for all living things including microorganisms
4) Incinerator ash only has to be tested 4 times a year The waste stream is highly variable and ash composition can change frequently
How Incinerator Ash Escapes being Hazardous Waste
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Incinerators still require landfills for their toxic ashbull Choice is NOT landfill vs incinerator but
Incineration Worse than Landfills
landfill
vs
incinerator AND a smaller more toxic landfill
ORhellip
Zero Waste and minimal landfilling
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Landfilling vs Incineration
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Landfilling vs Incineration
hellipand Ash Landfilling
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
wwwenergyjusticenetlfg
Landfills and Landfill Gas Burning
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
All Landfills Leakbull US EPA acknowledges that all landfill liners
leak within 20 years if not soonerbull Landfill liners are only guaranteed for about
20 yearsbull Landfills are permitted to leak a certain
amount of gallonsacrebull Its easy not to find leakage (underground or in
air) testing is often inadequate
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Landfill Gas What it ishellipbull Not simply ldquomethanerdquobull About half methane half CO2
bull Organics breaking down create the methane methane helps the toxic chemicals escape
bull Hundreds of toxic contaminantsndash Halogenated compounds (trichloroethane vinyl chloride
carbon tetrachloride and many more)ndash Mercury (methylmercury ndash the really bad kind)ndash Sulfur compounds (the stinky stuff)ndash Tritium (radioactive)ndash Other toxic organic compounds (benzene toluenehellip)
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
1 -butanol 26-dimethylheptane4-methyl-2-pentanol + branched C-8 paraffin butanol isomer
1 -chloro-1 -fluoroethane 2-butanethiol acetaldehyde butyl hexanoate
1 -chloro-1 -propene 2-butanol acetone butylcyclohexane
1 -chloropropane 2-chloropropane acetone + ethanol butylene
1 -heptene 2-ethylfuran alpha thujene butylpropanoate
1 -octene 2-ethylhexyl alcohol alpha-pinene C-1 0 olefin1 -pentene 2-ethyl-l-hexanol alpha-thugene C-1 1 diene
1 -propanol 2-methyidecalin alpha-thujene C-1 1 olefin
1 1 -dichloroethane 2-methyl heptanealpha-thujene + branched C-10 paraffin C-1 1 paraffin
1 1 1 -trichloroethylene 2-methyl propanoate benzene C-1 1 paraffin + C-3 benzene1 123-tetramethyl-cyclohexane 2-methyl-2-propanethiol benzothiazole C-1 I cylcoparaffin
113-trimethylcyclohexane2-methyl-3-pentanone + pentanol isomer beta-pinene C-10 diene
11-dichloroethane 2-methylbutane branched C-1 1 olefin C-10 olefin
11-dimethyl-cyclopropane 2-methyl-butanebranched C-1 1 olefin amp paraffin + C-1 2 diene C-12 diene
123-trimethylcyclohexane 2-methyl-ethyl butanoatebranched C-1 1 olefin + branched C-1 2 olefin C-3 alkylcyclohexane isomer
123-trimethylcyclohexane isomer 2-methylfuran branched C-1 1 paraffin
C-3 alkyl-substituted cyclopentadiene isomer
12-dichloroethene 2-methylheptane branched C-1 I paraffin C-3 benzene
12-dichloroethylene 2-methylhexane branched C-10 olefinC-3 benzene + branched C-1 1 paraffin
12-dichloropropane 2-methylhexylbutyratebranched C-10 olefin + branched C-1 1 paraffin
C-3 benzene + branched C-10 olefin + paraffin
135-trimethylcyclohexane 2-methyl-l-propanolbranched C-10 olefin + C3-benzene hellip
C-3 benzene + branched C-10 paraffin
135-trimethylcyclohexane isomer 2-methyloctahydropentalene branched C-10 paraffin C-3 benzene + C-1 1 paraffin
13-dichloro-2-butene 2-methylpentanebranched C-10 paraffin + 2-methylhexylbutanoate C-3 benzene + C-10 paraffin
15-cyclooctadiene 2-methylthiobutanebranched C-10 paraffin + beta-pinene C-3 benzene + C-9 diene
1-butanol 2-methylthiopropanebranched C-10 paraffin + branched C-10 olefin
C-3 benzene + octahydro-2-methylpentalene
1-butanol + 12-dichloropropane
2-pentanone + 12-dichloropropane
branched C-10 paraffin + phellandrene C-3 benzene isomer
1-chloropropane 2-pentene branched C-12 diene C-3 cyclohexane
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Landfill Health Impacts
A New York study of 38 landfills found that women living near solid waste landfills where gas is escaping have a four-fold increased chance of bladder cancer or leukemia
ldquoInvestigation of Cancer Incidence and Residence Near 38 Landfills With Soil Gas Migration Conditions New York State 1980-1989rdquo State of New York Department of Health (Atlanta Ga Agency for Toxic Substances and Disease Registry June 1998)
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Landfilling vs Incineration
Pollutant (all data in tons) Incinerators Landfills
Incinerators are __ times as polluting
Greenhouse Gases (CO2e) 482770 268763 18Health Damaging Pollution 1975 1236 16
Carbon Monoxide (CO) 119 22 5Hydrochloric Acid (HCl) 17 1 21Nitrogen Oxides (NOx) 625 6 105Particulate Matter (Condensable) 25 1 17Particulate Matter (PM10) 26 17 16Fine Particulate Matter (PM25) 17 4 5Sulfur Oxides (SOx) 55 3 19Total Suspended Particulate 2178 2486 088Volatile Organic Compounds 3 9 034
Source PA Dept of Environmental Protection Air Emissions Report 2017 data for southeast amp southcentral region facilities
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull Human health impactsndash Nitrogen Oxide emissions (asthma)ndash Particulate emissionsndash Toxic and Cancer-causing emissions
bull Eutrophicationbull Acidification (acid rainhellip)bull Ecosystem toxicitybull Ozone depletionbull Smog formationbull Global warming
How to CompareShould also look athellip
bull Costbull Jobsbull Population impactedbull Environmental justice
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Life Cycle Analysis on DC Waste Options
Analysis done byJeffrey Morris PhD (Economics)Sound Resource Management Group360-867-1033jeffmorriszerowastecomwwwzerowastecom
Dr Morris authored several peer reviewed published studies on waste systems
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
LCA Characteristics of WARM MSW DST and MEBCalc
Additional Comparison of WARM amp MSW DST H Scott Matthews (Carnegie Mellon University) Cynthia J Manson (Industrial Economics Inc) Comparative Analysis of EPA Life Cycle Models Differences between MSW-DST and WARM in Examining Waste Management Options prepared for EPA Office of Resource Conservation and Recovery Internal Review Draft-Do Not Distribute 11-12-2009
LCA Model
Features WARMMSW DST MEBCalc
Impacts included in model-Climate change -Human health (respiratory) limited -Human health (toxic chemicals) limited -Human health (carcinogens) limited -Eutrophication limited -Acidification limited -Eco-toxicity limited -Ozone depletion -Smog formation limited
Monetized Environmental Score Energy Impacts Included limited of MSW Materials Included 54 ~30 27
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
bull US EPAndash National Emissions Inventoryndash Emissions amp Generation Resource Integrated Database (eGRID)ndash FLIGHT (Greenhouse gas inventory)ndash Landfill Methane Outreach Program database
bull US Energy Information Administrationndash Form 860 database (Annual Electric Generator data)ndash Form 923 database (Annual Electric Utility Data)
bull Virginia Department of Environmental Qualitybull DC Department of
Public Worksbull Energy Recovery Councilbull Sound Resource
Management Group
Data Sources
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Covanta Fairfax 222937 27
Shoosmith Sanitary Landfill 221415 27
Middle Peninsula Landfill and Recycling Facility 190323 23
BFI Old Dominion Landfill 118785 14
Tri City Regional Disposal and Recycling Services 36898 4
King George Landfill amp Recycling Center 20002 2
Covanta Alexandria Arlington 16690 2
King and Queen Sanitary Landfill 267 0
Charles City County Landfill 18 0
Total 827335
Where DCrsquos waste went (to VA) in 2016
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Where DCrsquos waste went (to VA) in 2016
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Facilities in Focus for 2017amp This Presentation
Facility Name Type
Average Distance from DC Transfer Stations (mi)
Annual Precipitation (inches)
Years of Life Remaining
Covanta Fairfax Incinerator 26 13 (if it lives to 40)King George Landfill 68 428 11King amp Queen Landfill 122 454 26Middle Peninsula Landfill 130 454 73Charles City Landfill 130 463 74
[ldquoOther 3 Landfillsrdquo in future slides refers to the last three above which are all about the same distance from DC]
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Covanta Fairfax Reported Emissions (2014)
Global Warming Pollutants Pounds released (2014)Carbon Dioxide (CO2) 2169540876Methane (CH4) 762927Nitrous Oxide (N2O) 100130
Health Damaging Pollutants Pounds released (2014)Carbon Monoxide 11319 Hydrochloric Acid 57408 Hydrofluoric Acid 1385 Lead 68 Nitrogen Oxides (NOx) 3398301 Particulate Matter (PM10) 14709 Fine Particulate Matter (PM25) 8862 Sulfur Dioxide 257899 Volatile Organic Compounds 11813
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Covanta Fairfax Emissions
Within 20 miles of DCrsquos borders Covanta Fairfax ishellipbull 1 in Nitrogen Oxides
ndash So high that Covantarsquos home state of New Jersey singled out this incinerator as ineligible to sell renewable energy credits to NJ
ndash 2 in the entire industry worse than the Detroit incinerator (which has no NOx controls)
bull 1 in Carbon Dioxidebull 1 in Hydrochloric Acidbull 1 in Hydrofluoric Acid (was worst in their industry in 2008)bull 1 in Mercurybull 4 in Sulfur Dioxidebull Top 10 in Leadbull 3 in overall air pollution (after Dulles and DCA Airports)
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Life Cycle Analysis on DC Waste Optionsbull All comparison data includes pollution from trucking
ndash Note the tiny difference that doubling hauling distance makes bull A 75 landfill gas capture rate is assumed based on what
was reported to us in calls to the four landfills All three we reached independently reported the same percentage
bull For the landfills the best data available for DC waste composition is used Where categories were vague we filled in the proportions with more detailed data from Montgomery Countyrsquos waste characterization study Actual emissions data for Covanta Fairfax is used as reported to EPA
bull We used local precipitation data from the areas where the landfills are located which is wetter than average
bull ldquoOther 3 Landfillsrdquo = King amp Queen LF Middle Peninsula LF and Charles City LF
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Conservative Assumptionson Global Warming
bull This study looks at the 20-year impact (most relevant for methanersquos impacts on global warming) as well as the 100-year impact The 20-year impact based on methane being worse in the short-term makes landfills out to be worse than they are when evaluated over 100 years
bull This study uses the latest science for methanes global warming potential (86 times worse than CO2 over 20 years based on the latest International Panel on Climate Change report)
See wwwenergyjusticenetnaturalgasGWP for a link to the various data sources in the evolving science on global warming potentials
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Conservative Assumptionson Toxicity
bull This study did not factor in two main things that would also trend toward incinerators being worse than landfillsndash It did not include data on leaching of toxic chemicals from
incinerator ash but DID include leaching from trash In fact leaching of toxic chemicals from incinerator ash is expected to be worse especially where the ash is used as landfill cover or is mixed with municipal solid waste as it is in Old Dominion Landfill
ndash Dioxinfuran emissions were not included This was due to a lack of good data on dioxin emissions from landfills Dioxins and furans are the most toxic man-made chemicals known to science and are largely associated with incineration sources so ignoring them biases the study in a conservative way making incinerators out to be less toxic than they truly are
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Nitrogen Oxide (NOx) Pollution[Pounds of NOx per ton of waste disposed]
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Particulate Matter Pollution[Pounds of PM25 equivalent per ton of waste disposed]
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Toxic Pollution[Pounds of toluene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Carcinogenic Pollution[Pounds of benzene equivalent per ton of waste disposed]
Does not include dioxinfuran emissions or ash leaching
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Eutrophication[Pounds of nitrogen equivalent per ton of waste disposed]
NOx and ammonia air emissions plus BOD COD phosphate and ammonia water releases from landfills
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Acidification[Pounds of SO2 equivalent per ton of waste disposed]
Incinerator emissions are largely from nitrogen oxides but also include other acid gases (SO2 HCl HF) For the landfills itrsquos hydrogen sulfide (H2S) from the landfill plus
ammonia NOx and SOx from the landfill gas burners
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Ecosystems Toxicity[Pounds of 24-D herbicide equivalent per ton of waste disposed]
For the incinerator this is mainly based on mercury emissions For the landfill mainly formaldehyde
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Ozone Depletion[Pounds of CFC-11 equivalent per ton of waste disposed]
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Smog Formation[Pounds of ozone (O3) equivalent per ton of waste disposed]
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Incineration worse than Landfills
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Trash Incineration (with ash landfilling)is Worse than Landfills
Incineration is worse forbull Global warmingbull Toxic emissionsbull Nitrogen Oxide emissions (asthma)bull Particulate Matter emissionsbull Acid rainbull Smogbull Costbull Number of people impactedbull Environmental racismbull Jobs
Landfills are worse forbull Ozone depletionbull Carcinogenic emissionsbull Pesticide-like chemicals
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
All together nowhellipMonetized Health amp Environmental Cost
[All impacts combined and monetized]
$288ton for incineration vs $103-155ton for landfilling
Covanta Montgomery County MD
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[EPA Public Relations on MSW Incineration]
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[EPA FLIGHT Data in 2015 metric tons CO2 equivalent]
NOTE This ignores biogenic emissions from incineration but not from landfills making Covanta seem half as bad as they are
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[Energy Recovery Council Public Relations on MSW Incineration]
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Sponsored by the incinerator industry with $50-100Kyear fromhellip
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Ray of sunshine encounters a CO2 molecule in the atmosphere
Ray of sunshine Did you come from a tree
CO2 molecule Why yes I did
Ray of sunshine Ok I wont heat you up then Have a nice day
(This is NOT how it works There is no ldquomagic tree carbonrdquo)
WHY 1) Double Counting2) Carbon in treesplantssoils isnrsquot same as in air3) Donrsquot have time
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
How incineration GHGs downplayedbull Ignoring the ldquobiogenicrdquo half of carbon emissions from incinerators
while counting all of the GHGs (all ldquobiogenicrdquo) from landfillsndash Biomass carbon neutrality has been scientifically debunked See a compilation
of the science here wwwenergyjusticenetbiomasscarbon
bull Pretending ldquobiogenicrdquo carbonrsquos share in MSW is larger than the 527 that EPA factors into their eGRID datandash The trend should be the opposite with newspapers disappearing and plastic
packaging replacing glass
bull Subtracting avoided methane emissions from landfills as if conventional landfills are the only alternativendash Invalid when comparing incinerators to landfills as the same assumption could
be made for landfills letting them subtract incinerator emissions
bull Subtracting emissions from offsetting fossil fuel electricityndash hellipas if theyrsquore not actually competing with wind power within the statersquos
Renewable Portfolio Standard law
Details at wwwenergyjusticenetincinerationclimate
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing wind no energy displacement factored in)
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Global Warming Pollution[Pounds of CO2 equivalent per ton of waste disposed]
(Displacing Coal)
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Evaluating Energy Displacementbull Even if we assume that coal power is being displaced incineration
comes out 10 worse for the climate than coal in the short term(20-years) and 113 worse than (21 times as bad as) landfilling in the long-term (100 years)
bull Coal displacement is an extreme assumption and completely unlikelyndash No one is building new coal power plants anymorendash Coal assets are being retired rapidly across the country Coal mining companies
are going bankruptndash US coal production has peaked in 2002 in terms of energy value extracted
leaving the more expensive and harder to reach coal deposits most of which will never be extracted because gas and increasingly wind and solar are undercutting and replacing coal
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
ldquoIn our industry and in the waste industry as a whole fires are becoming more prevalentrdquo
-Mark Harlacker ndashCovantarsquos Commercial Business Director for Mid-Atlantic Region 4262017 testimony before DC City Council
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Trash Incinerator Health Impacts
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Health effectshellipAir Pollutant Health Effects
Nitrogen Oxides triggers asthma attacks increases lifetime risk of chronic respiratory disease and stroke
Sulfur Dioxide triggers asthma attacks increases lifetime risk of chronic respiratory and heart diseases and stroke
Hydrochloric Acid irritates eyes skin and nose damages lungs
Carbon Monoxide causes headaches and dizziness increases lifetime risk of heart disease
Particulate matter (soot) heart attacks stroke irregular heartbeat aggravated asthma decreased lung function difficulty breathing
Fine Particulate matter same as above but worse as it can get deep into lungs and into blood stream
Volatile Organic Compoundseye nose and throat irritation headaches loss of coordination and nausea liver kidney and central nervous system damage cancer
Formaldehyde irritates eyes skin and nose increases lifetime risk of cancer
Hydrogen Fluoride lung liver and kidney damage skeletal fluorosis (brittle bones)
Lead causes damage to nervous system and kidneys lowers IQ in children increases likelihood of antisocial behavior
Mercury causes damage to nervous digestive and immune systems lowers IQ in children
Nickel lung and nasal cancers
Chromium (VI) lung cancer shortness of breath coughing and wheezing
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Health effects
bull All types of cancer includingbull Stomachbull Colorectalbull Liverbull Renalbull Lung amp pleuralbull Gallbladderbull Bladderbull Non-Hodgkin lymphomabull Leukemiabull Soft-tissue sarcoma
bull Respiratory diseases amp symptomsbull Cardiovascular diseasesbull Urinary diseases
People living near incinerators have an increased risk ofhellip
Source wwwenergyjusticenetincinerationhealthstudiespdf
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Racism isnrsquot usually this obvioushellip
Zulene Mayfield shows signs of vandalism at office of Chester Residents Concerned for Quality Living in Chester PA in 1996 ldquoLaid to Wasterdquo documentary
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
wwwChesterResidentsorg
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Who Lives Near Trash Incinerators
Source wwwspatialjusticetestorgtest14html
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Who Lives Near Landfills
Source wwwspatialjusticetestorgtest16html
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Zero Waste Jobs
Deconstruction Crew Second Chance Baltimore MD Photo Credit C Seldman
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
ldquoThe conservation of all resources by means of responsible production consumption reuse and recovery of all products packaging and materials without burning them and without discharges to land water or air that threaten the environment or human healthrdquo
What is Zero Waste
Source Zero Waste International Alliance wwwzwiaorg
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Zero Waste means zero incineration and achieving 90 or greater diversion from landfills and other forms of destructive disposal
The goal is to get as close to zero as possible without getting caught up on the impossibility of actually hitting zero
ldquoZero wasterdquo is like ldquozero drug tolerancerdquo or ldquozero accidents in the workplacerdquo standards Zero is the goal and the right policies will get you as close as you can get
If yoursquore not for Zero Waste how much waste are you for
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Getting to Zero Wastebull Unit pricing aka ldquoPaySave as You Throwrdquo or
ldquoSave Money and Reduce Trashrdquo (SMART)bull Free bins ndash and the right sizesbull Compostingbull Deconstruction
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Residential MSW Disposed per Capita ndash DEEP Dive ParticipantsSMART communities dispose of less residential MSW per capita than most Connecticut cities and towns Worcester throws away 324 lbs per capita
MA SMART Towns
432
112Note Figures are calculated using MSW tonnage data provided by the municipalities themselves
Mansfield
CT513
CT Average
740
StoningtonCT 389
WorcesterMA 324
Chart1
Sheet1
113
Results MSW Reduction of 44 on Average
113
WATERVILLE ME53 DECLINE IN WASTE
DARTMOUTH MA59 DECLINE IN WASTE
NATICK MA35 DECLINE IN WASTE
SANFORD ME40+ DECLINE IN WASTEhellipTWICE
SMART lsquoUnit Based Pricingrsquo is a science The data spans over decades across hundreds of municipalities with diverse demographics
Prepared by WasteZero Inc for the CT Dept of Energy amp Environmental Protection 2019
43(198447 tons)
MSW80
(469620 tons)MSW57
(262919 tons)
Expected Waste Shift from SMART (40 DEEP Dive Participants)
114
20(115688 tons)
21 Less Generation
Overall waste generation is expected to decrease by about 21 due to source reduction and reuse
Per Capita Disposal | Series 2 | Series 3 | |||||||||||
Bridgeport | 949 | 24 | 2 | Bridgeport | 949 | ||||||||
Waterbury | 923 | 44 | 2 | Hartford | 923 | ||||||||
Hartford | 903 | 18 | 3 | Waterbury | 903 | ||||||||
North Haven | 856 | 28 | 5 | North Haven | 856 | ||||||||
Greenwich | 850 | Greenwich | 850 | ||||||||||
Groton (City of) | 824 | Groton | 824 | ||||||||||
Old Saybrook | 820 | Old Saybrook | 820 | ||||||||||
Waterford | 820 | Waterford | 820 | ||||||||||
New Britain | 810 | New Britain | 810 | ||||||||||
Ellington | 783 | Ellington | 783 | ||||||||||
Westport | 782 | Westport | 782 | ||||||||||
Plainville | 770 | Plainville | 770 | ||||||||||
Torrington | 747 | Torrington | 747 | ||||||||||
Farmington | 744 | Farmington | 744 | ||||||||||
Burlington | 727 | Burlington | 727 | ||||||||||
Meriden | 718 | Meriden | 718 | ||||||||||
Ledyard | 713 | Ledyard | 713 | ||||||||||
Berlin | 711 | Berlin | 711 | ||||||||||
Griswold | 710 | Griswold | 710 | ||||||||||
Branford | 699 | Branford | 699 | ||||||||||
New London | 692 | New London | 692 | ||||||||||
East Haddam | 691 | East Haddam | 691 | ||||||||||
West Hartford | 691 | West Hartford | 691 | ||||||||||
Norwich | 687 | Norwich | 687 | ||||||||||
Manchester | 687 | Manchester | 687 | ||||||||||
Fairfield | 680 | Fairfield | 680 | ||||||||||
Montville | 666 | Montville | 666 | ||||||||||
Milford | 664 | Milford | 664 | ||||||||||
Shelton | 664 | Shelton | 664 | ||||||||||
West Haven | 659 | West Haven | 659 | ||||||||||
Harwinton | 651 | Harwinton | 651 | ||||||||||
East Lyme | 650 | East Lyme | 650 | ||||||||||
Enfield | 646 | Enfield | 646 | ||||||||||
Preston | 633 | Preston | 633 | ||||||||||
North Stonington | 628 | North Stonington | 628 | ||||||||||
New Haven | 622 | New Haven | 622 | ||||||||||
Groton | 614 | 27085 | 732018928651 | Groton | 614 | ||||||||
South Windsor | 614 | South Windsor | 614 | ||||||||||
Middletown | 601 | Middletown | 601 | ||||||||||
Stamford | 576 | Stamford | 576 | ||||||||||
Mansfield | 513 | g | Mansfield | 513 | |||||||||
MA Average | 425 | Stonington | 389 | ||||||||||
Stonington | 389 | Worcester | 325 | ||||||||||
Worcester | 325 |
Bridgeport | |
Waterbury | |
Hartford | |
North Haven | |
Greenwich | |
Groton (City of) | |
Old Saybrook | |
Waterford | |
New Britain | |
Ellington | |
Westport | |
Plainville | |
Torrington | |
Farmington | |
Burlington | |
Meriden | |
Ledyard | |
Berlin | |
Griswold | |
Branford | |
New London | |
East Haddam | |
West Hartford | |
Norwich | |
Manchester | |
Fairfield | |
Montville | |
Milford | |
Shelton | |
West Haven | |
Harwinton | |
East Lyme | |
Enfield | |
Preston | |
North Stonington | |
New Haven | |
Groton | |
South Windsor | |
Middletown | |
Stamford | |
Mansfield | |
MA Average | |
Stonington | |
Worcester |
Sheet1
113
Results MSW Reduction of 44 on Average
113
WATERVILLE ME53 DECLINE IN WASTE
DARTMOUTH MA59 DECLINE IN WASTE
NATICK MA35 DECLINE IN WASTE
SANFORD ME40+ DECLINE IN WASTEhellipTWICE
SMART lsquoUnit Based Pricingrsquo is a science The data spans over decades across hundreds of municipalities with diverse demographics
Prepared by WasteZero Inc for the CT Dept of Energy amp Environmental Protection 2019
43(198447 tons)
MSW80
(469620 tons)MSW57
(262919 tons)
Expected Waste Shift from SMART (40 DEEP Dive Participants)
114
20(115688 tons)
21 Less Generation
Overall waste generation is expected to decrease by about 21 due to source reduction and reuse
Per Capita Disposal | Series 2 | Series 3 | |||||||||||
Bridgeport | 949 | 24 | 2 | Bridgeport | 949 | ||||||||
Waterbury | 923 | 44 | 2 | Hartford | 923 | ||||||||
Hartford | 903 | 18 | 3 | Waterbury | 903 | ||||||||
North Haven | 856 | 28 | 5 | North Haven | 856 | ||||||||
Greenwich | 850 | Greenwich | 850 | ||||||||||
Groton (City of) | 824 | Groton | 824 | ||||||||||
Old Saybrook | 820 | Old Saybrook | 820 | ||||||||||
Waterford | 820 | Waterford | 820 | ||||||||||
New Britain | 810 | New Britain | 810 | ||||||||||
Ellington | 783 | Ellington | 783 | ||||||||||
Westport | 782 | Westport | 782 | ||||||||||
Plainville | 770 | Plainville | 770 | ||||||||||
Torrington | 747 | Torrington | 747 | ||||||||||
Farmington | 744 | Farmington | 744 | ||||||||||
Burlington | 727 | Burlington | 727 | ||||||||||
Meriden | 718 | Meriden | 718 | ||||||||||
Ledyard | 713 | Ledyard | 713 | ||||||||||
Berlin | 711 | Berlin | 711 | ||||||||||
Griswold | 710 | Griswold | 710 | ||||||||||
Branford | 699 | Branford | 699 | ||||||||||
New London | 692 | New London | 692 | ||||||||||
East Haddam | 691 | East Haddam | 691 | ||||||||||
West Hartford | 691 | West Hartford | 691 | ||||||||||
Norwich | 687 | Norwich | 687 | ||||||||||
Manchester | 687 | Manchester | 687 | ||||||||||
Fairfield | 680 | Fairfield | 680 | ||||||||||
Montville | 666 | Montville | 666 | ||||||||||
Milford | 664 | Milford | 664 | ||||||||||
Shelton | 664 | Shelton | 664 | ||||||||||
West Haven | 659 | West Haven | 659 | ||||||||||
Harwinton | 651 | Harwinton | 651 | ||||||||||
East Lyme | 650 | East Lyme | 650 | ||||||||||
Enfield | 646 | Enfield | 646 | ||||||||||
Preston | 633 | Preston | 633 | ||||||||||
North Stonington | 628 | North Stonington | 628 | ||||||||||
New Haven | 622 | New Haven | 622 | ||||||||||
Groton | 614 | 27085 | 732018928651 | Groton | 614 | ||||||||
South Windsor | 614 | South Windsor | 614 | ||||||||||
Middletown | 601 | Middletown | 601 | ||||||||||
Stamford | 576 | Stamford | 576 | ||||||||||
Mansfield | 513 | g | Mansfield | 513 | |||||||||
MA Average | 425 | Stonington | 389 | ||||||||||
Stonington | 389 | Worcester | 325 | ||||||||||
Worcester | 325 |
113
Results MSW Reduction of 44 on Average
113
WATERVILLE ME53 DECLINE IN WASTE
DARTMOUTH MA59 DECLINE IN WASTE
NATICK MA35 DECLINE IN WASTE
SANFORD ME40+ DECLINE IN WASTEhellipTWICE
SMART lsquoUnit Based Pricingrsquo is a science The data spans over decades across hundreds of municipalities with diverse demographics
Prepared by WasteZero Inc for the CT Dept of Energy amp Environmental Protection 2019
43(198447 tons)
MSW80
(469620 tons)MSW57
(262919 tons)
Expected Waste Shift from SMART (40 DEEP Dive Participants)
114
20(115688 tons)
21 Less Generation
Overall waste generation is expected to decrease by about 21 due to source reduction and reuse
Prepared by WasteZero Inc for the CT Dept of Energy amp Environmental Protection 2019
43(198447 tons)
MSW80
(469620 tons)MSW57
(262919 tons)
Expected Waste Shift from SMART (40 DEEP Dive Participants)
114
20(115688 tons)
21 Less Generation
Overall waste generation is expected to decrease by about 21 due to source reduction and reuse
Chart1
Sheet1
115
Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
115
Recycling markets have been weak for the past few years due to a combination of single stream contamination and Chinarsquos policy The recycling infrastructure in the US is adjusting and markets are predicted to rebound Recycling is a commodity and there will always be highs and lows However SMART is the best way to manage waste regardless of the recycling costs because it promotes source reduction and reuse The recycling tip fee could go as high as $170 per ton and a SMART system will still cost less money
The waste tip fee is expected to rise significantly over the next decade The average waste tip fee for the 40 DEEP DIVE communities was $75 per ton Most communities are tied to a CPI price escalator Communities that have negotiated new contracts since the start of the program have seen much greater increases than CPI
No SMART SMART No SMART SMART No SMART SMART No SMART SMART
Waste Tonnage 1019367 570778 1019367 570778 $1019367 $570778 $1019367 $570778
Recycling Tonnage 268067 449136 268067 449136 $268067 $449136 $268067 $449136
Waste Tip $75 $75 $75 $75 $75 $75 $75 $75
Recycling Tip $0 $0 $4000 $4000 $8000 $8000 $170 $170
Trash Disposal $ $76452541 $42808335 $76452541 $42808335 $76452541 $42808335 $76452541 $42808335
Recycling $ $10722665 $17965440 $21445331 $35930879 $45571328 $76353118
Total Cost $76452541 $42808335 $87175206 $60773774 $97897871 $78739214 $122023869 $119161453Savings -
Comparison $33644206 $26401432 $19158658 $2862416
Textiles7 Glass
6
Metals9
Other materials8
Plastics17Food scraps
21
Yard trimmings8
Wood8
Paper and paperboard
16
Money Thrown Away$114 billion worth of recyclable packaging wasted (sent to landfills and incinerators) in 2010
Source ldquoUnfinished Business The Case for Extended Producer Responsibilityrdquo 2012 Report wwwasyousoworgsustainabilityeprreportshtml
httpswwwepagovsmmsustainable-materials-management-non-hazardous-materials-and-waste-management-hierarchy
EPArsquos
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
MSW | Curbside Recycling | |||||||||||||||||
Current | 46962004953 | 1156876327 | 58530768223 | |||||||||||||||
Projected With SMART | 2629193877368 | 19844749861728 | 46136688635408 | l | ||||||||||||||
80 | 20 | 1019367 | 268067 | |||||||||||||||
57 | 43 | 570778 | 449136 | |||||||||||||||
l | ||||||||||||||||||
46962004953 | 1156876327 | |||||||||||||||||
2629193877368 | 19844749861728 |
Current | Current | ||
Projected With SMART | Projected With SMART |
Sheet1
115
Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
115
Recycling markets have been weak for the past few years due to a combination of single stream contamination and Chinarsquos policy The recycling infrastructure in the US is adjusting and markets are predicted to rebound Recycling is a commodity and there will always be highs and lows However SMART is the best way to manage waste regardless of the recycling costs because it promotes source reduction and reuse The recycling tip fee could go as high as $170 per ton and a SMART system will still cost less money
The waste tip fee is expected to rise significantly over the next decade The average waste tip fee for the 40 DEEP DIVE communities was $75 per ton Most communities are tied to a CPI price escalator Communities that have negotiated new contracts since the start of the program have seen much greater increases than CPI
No SMART SMART No SMART SMART No SMART SMART No SMART SMART
Waste Tonnage 1019367 570778 1019367 570778 $1019367 $570778 $1019367 $570778
Recycling Tonnage 268067 449136 268067 449136 $268067 $449136 $268067 $449136
Waste Tip $75 $75 $75 $75 $75 $75 $75 $75
Recycling Tip $0 $0 $4000 $4000 $8000 $8000 $170 $170
Trash Disposal $ $76452541 $42808335 $76452541 $42808335 $76452541 $42808335 $76452541 $42808335
Recycling $ $10722665 $17965440 $21445331 $35930879 $45571328 $76353118
Total Cost $76452541 $42808335 $87175206 $60773774 $97897871 $78739214 $122023869 $119161453Savings -
Comparison $33644206 $26401432 $19158658 $2862416
Textiles7 Glass
6
Metals9
Other materials8
Plastics17Food scraps
21
Yard trimmings8
Wood8
Paper and paperboard
16
Money Thrown Away$114 billion worth of recyclable packaging wasted (sent to landfills and incinerators) in 2010
Source ldquoUnfinished Business The Case for Extended Producer Responsibilityrdquo 2012 Report wwwasyousoworgsustainabilityeprreportshtml
httpswwwepagovsmmsustainable-materials-management-non-hazardous-materials-and-waste-management-hierarchy
EPArsquos
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
MSW | Curbside Recycling | |||||||||||||||||
Current | 46962004953 | 1156876327 | 58530768223 | |||||||||||||||
Projected With SMART | 2629193877368 | 19844749861728 | 46136688635408 | l | ||||||||||||||
80 | 20 | 1019367 | 268067 | |||||||||||||||
57 | 43 | 570778 | 449136 | |||||||||||||||
l | ||||||||||||||||||
46962004953 | 1156876327 | |||||||||||||||||
2629193877368 | 19844749861728 |
115
Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
115
Recycling markets have been weak for the past few years due to a combination of single stream contamination and Chinarsquos policy The recycling infrastructure in the US is adjusting and markets are predicted to rebound Recycling is a commodity and there will always be highs and lows However SMART is the best way to manage waste regardless of the recycling costs because it promotes source reduction and reuse The recycling tip fee could go as high as $170 per ton and a SMART system will still cost less money
The waste tip fee is expected to rise significantly over the next decade The average waste tip fee for the 40 DEEP DIVE communities was $75 per ton Most communities are tied to a CPI price escalator Communities that have negotiated new contracts since the start of the program have seen much greater increases than CPI
No SMART SMART No SMART SMART No SMART SMART No SMART SMART
Waste Tonnage 1019367 570778 1019367 570778 $1019367 $570778 $1019367 $570778
Recycling Tonnage 268067 449136 268067 449136 $268067 $449136 $268067 $449136
Waste Tip $75 $75 $75 $75 $75 $75 $75 $75
Recycling Tip $0 $0 $4000 $4000 $8000 $8000 $170 $170
Trash Disposal $ $76452541 $42808335 $76452541 $42808335 $76452541 $42808335 $76452541 $42808335
Recycling $ $10722665 $17965440 $21445331 $35930879 $45571328 $76353118
Total Cost $76452541 $42808335 $87175206 $60773774 $97897871 $78739214 $122023869 $119161453Savings -
Comparison $33644206 $26401432 $19158658 $2862416
Textiles7 Glass
6
Metals9
Other materials8
Plastics17Food scraps
21
Yard trimmings8
Wood8
Paper and paperboard
16
Money Thrown Away$114 billion worth of recyclable packaging wasted (sent to landfills and incinerators) in 2010
Source ldquoUnfinished Business The Case for Extended Producer Responsibilityrdquo 2012 Report wwwasyousoworgsustainabilityeprreportshtml
httpswwwepagovsmmsustainable-materials-management-non-hazardous-materials-and-waste-management-hierarchy
EPArsquos
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Textiles7 Glass
6
Metals9
Other materials8
Plastics17Food scraps
21
Yard trimmings8
Wood8
Paper and paperboard
16
Money Thrown Away$114 billion worth of recyclable packaging wasted (sent to landfills and incinerators) in 2010
Source ldquoUnfinished Business The Case for Extended Producer Responsibilityrdquo 2012 Report wwwasyousoworgsustainabilityeprreportshtml
httpswwwepagovsmmsustainable-materials-management-non-hazardous-materials-and-waste-management-hierarchy
EPArsquos
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
httpswwwepagovsmmsustainable-materials-management-non-hazardous-materials-and-waste-management-hierarchy
EPArsquos
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
wwwzwiaorgzwh
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Zero Waste Hierarchybull Rethink Redesignbull Reducebull Source Separate
ndash Reusablesndash Recycle (multi-stream)ndash Compostndash Waste
bull Research to see what is left and encourage redesignbull Recovery mechanically remove additional recyclablesbull Anaerobically digest then aerobically compost residualsbull Stabilized (digested) residuals to landfill
wwwenergyjusticenetzerowaste
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
1 Direct landfilling(bad but better than incineration)
ndash leachate (toxics)ndash air emissions (toxics methane odors)
2 Incineration toxic ash to landfill(most polluting and expensive option)
ndash leachate (even more toxics)ndash air emissions from ash blowing off site (toxics)
3 Anaerobic digestion landfill(best option avoids gassy stinky landfills)
ndash odor leachate and air emissions highly minimized
The back end is still a landfillhellip
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Better to Landfill than Burn Plastics
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Compostable Plasticsbull Polylactic Acid (PLA)
ndash Made from biotech cornndash Glyphosate (Roundup) spraying
bull Cancer kills mutates amphibiansndash Estrogen-like chemical leaching
bull Consumers confused where to put itndash Recycling
bull Contaminates recycling ndash Composting
bull Often not available consumers donrsquot know if going to industrial facility that can handle it
ndash Trashbull Worse than plastics in landfill both bad if burned
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Messing with your hormoneshellip
Source wwwmotherjonescomenvironment201403guide-estrogen-common-plastics-bpa more at wwwejnetorgplastics
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
bull Incinerationndash wwwEnergyJusticenetincinerationndash wwwEnergyJusticenetbiomass
bull Landfills and Landfill Gas Burningndash wwwEnergyJusticenetlfgndash wwwejnetorglandfills
bull Zero Wastendash wwwEnergyJusticenetzerowastendash wwwilsrorginitiativeswaste-to-wealthndash wwwgrrnorgzerowastendash wwwzwiaorg
For more Infohellip
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
Mike Ewall EsqFounder amp Director
215-436-9511
- helliphelping communities protect themselves from polluting energy and waste technologies
- Slide Number 2
- Slide Number 3
- Trash Incineration
- Slide Number 5
- Slide Number 6
- Slide Number 7
- Slide Number 8
- Slide Number 9
- Slide Number 10
- Slide Number 11
- Slide Number 12
- Slide Number 13
- Slide Number 14
- Slide Number 15
- Slide Number 16
- Slide Number 17
- Slide Number 18
- Slide Number 19
- Slide Number 20
- Slide Number 21
- Slide Number 22
- Most Expensive Way to Manage Waste
- Most Expensive Way to Manage Waste
- Most Expensive Way to Make Energy
- Incinerator Economics
- Maryland ratepayer money to trash incinerators via Renewable Energy Credits(Incineration promoted to Tier 1 ndash equal to wind ndash in 2011)
- Slide Number 28
- Incinerators Burn Money
- Worst Way to Create Jobs
- Slide Number 31
- Slide Number 32
- Slide Number 33
- Global Warming PollutionSmokestack CO2 Emissions from US Power Plants
- Dioxins amp Furans
- Exposure to Dioxins
- How to make dioxin
- The Smokestack Story
- The Smokestack Story
- Slide Number 40
- Slide Number 41
- Slide Number 42
- Slide Number 43
- Slide Number 44
- Slide Number 45
- Slide Number 46
- Slide Number 47
- Slide Number 48
- Slide Number 49
- Slide Number 50
- Slide Number 51
- Landfilling vs Incineration
- Landfilling vs Incineration
- Slide Number 54
- Slide Number 55
- All Landfills Leak
- Landfill Gas What it ishellip
- Slide Number 58
- Landfill Health Impacts
- Landfilling vs Incineration
- Slide Number 61
- Life Cycle Analysis on DC Waste Options
- LCA Characteristics of WARM MSW DST and MEBCalc
- Slide Number 64
- Where DCrsquos waste went (to VA) in 2016
- Where DCrsquos waste went (to VA) in 2016
- Facilities in Focus for 2017amp This Presentation
- Covanta Fairfax Reported Emissions (2014)
- Covanta Fairfax Emissions
- Life Cycle Analysis on DC Waste Options
- Conservative Assumptionson Global Warming
- Conservative Assumptionson Toxicity
- Nitrogen Oxide (NOx) Pollution
- Particulate Matter Pollution
- Toxic Pollution
- Carcinogenic Pollution
- Eutrophication
- Acidification
- Ecosystems Toxicity
- Ozone Depletion
- Smog Formation
- Global Warming Pollution
- Incineration worse than Landfills
- Slide Number 84
- All together nowhellipMonetized Health amp Environmental Cost
- Global Warming Pollution
- Global Warming Pollution
- Global Warming Pollution
- Sponsored by the incinerator industry with $50-100Kyear fromhellip
- Slide Number 90
- Slide Number 91
- Slide Number 92
- How incineration GHGs downplayed
- Global Warming Pollution
- Global Warming Pollution
- Evaluating Energy Displacement
- Slide Number 97
- Slide Number 98
- Trash Incinerator Health Impacts
- Slide Number 100
- Slide Number 101
- Slide Number 102
- Slide Number 103
- Who Lives Near Trash Incinerators
- Who Lives Near Trash Incinerators
- Who Lives Near Landfills
- Zero Waste Jobs
- Slide Number 108
- Slide Number 109
- Slide Number 110
- Getting to Zero Waste
- Slide Number 112
- Results MSW Reduction of 44 on Average
- Slide Number 114
- Net Effect of SMART in Current Recycling Market (40 DEEP Participants)
- Money Thrown Away
- Slide Number 117
- Slide Number 118
- Slide Number 119
- Slide Number 120
- Zero Waste Hierarchy
- Slide Number 122
- Slide Number 123
- Slide Number 124
- Slide Number 125
- Better to Landfill than Burn Plastics
- Compostable Plastics
- Slide Number 128
- Slide Number 129
- Slide Number 130
-
top related